#include #include #include #include #include "taos.h" #include "qHistogram.h" #pragma GCC diagnostic ignored "-Wunused-function" #pragma GCC diagnostic ignored "-Wunused-variable" namespace { void doHistogramAddTest() { SHistogramInfo* pHisto = NULL; /** * use arrayList, elapsed time is: * before: * 10,000,000 45sec, bin:1000 (-O0) / 17sec. bin:1000, (-O3) * * after: * */ struct timeval systemTime; gettimeofday(&systemTime, NULL); int64_t st = (int64_t)systemTime.tv_sec * 1000L + (uint64_t)systemTime.tv_usec / 1000; for (int32_t i = 0; i < 10000; ++i) { tHistogramAdd(&pHisto, i); // tHistogramPrint(pHisto); } // gettimeofday(&systemTime, NULL); int64_t et = (int64_t)systemTime.tv_sec * 1000L + (uint64_t)systemTime.tv_usec / 1000; printf("total elapsed time: %ld\n", et - st); printf("elements: %d, slot:%d \n", pHisto->numOfElems, pHisto->numOfEntries); tHistogramPrint(pHisto); printf("%ld\n", tHistogramSum(pHisto, 1.5)); printf("%ld\n", tHistogramSum(pHisto, 2)); printf("%ld\n", tHistogramSum(pHisto, 3)); printf("%ld\n", tHistogramSum(pHisto, 4)); printf("%ld\n", tHistogramSum(pHisto, 5)); printf("%ld\n", tHistogramSum(pHisto, 6)); for (int32_t i = 399; i < 400; ++i) { printf("val:%d, %ld\n", i, tHistogramSum(pHisto, i)); } double ratio[] = {0 / 100, 20.0 / 100, 88.0 / 100, 100 / 100}; double* res = tHistogramUniform(pHisto, ratio, 4); for (int32_t i = 0; i < 4; ++i) { printf("%f\n", res[i]); } SHistogramInfo* pHisto1 = NULL; for (int32_t i = (90000 - 1); i >= 80000; --i) { tHistogramAdd(&pHisto1, i); } tHistogramPrint(pHisto1); SHistogramInfo* pRes = tHistogramMerge(pHisto1, pHisto, MAX_HISTOGRAM_BIN); assert(pRes->numOfElems == pHisto->numOfElems + pHisto1->numOfElems); tHistogramPrint(pRes); tHistogramDestroy(&pHisto); tHistogramDestroy(&pHisto1); tHistogramDestroy(&pRes); free(res); } void doHistogramRepeatTest() { SHistogramInfo* pHisto = NULL; struct timeval systemTime; gettimeofday(&systemTime, NULL); int64_t st = (int64_t)systemTime.tv_sec * 1000L + (uint64_t)systemTime.tv_usec / 1000; for (int32_t i = 0; i < 1000; ++i) { tHistogramAdd(&pHisto, -24 + i); // tHistogramPrint(pHisto); } tHistogramDestroy(&pHisto); } } /* test validate the names for table/database */ TEST(testCase, histogram_binary_search) { SHistogramInfo* pHisto = tHistogramCreate(MAX_HISTOGRAM_BIN); pHisto->numOfEntries = 10; for (int32_t i = 0; i < 10; ++i) { pHisto->elems[i].num = 1; pHisto->elems[i].val = i; } int32_t idx = histoBinarySearch(pHisto->elems, pHisto->numOfEntries, 1); assert(idx == 1); idx = histoBinarySearch(pHisto->elems, pHisto->numOfEntries, 9); assert(idx == 9); idx = histoBinarySearch(pHisto->elems, pHisto->numOfEntries, 20); assert(idx == 10); idx = histoBinarySearch(pHisto->elems, pHisto->numOfEntries, -1); assert(idx == 0); idx = histoBinarySearch(pHisto->elems, pHisto->numOfEntries, 3.9); assert(idx == 4); free(pHisto); } TEST(testCase, histogram_add) { doHistogramAddTest(); doHistogramRepeatTest(); } TEST(testCase, heapsort) { // int32_t num = 20; // // SHeapEntry* pEntry = tHeapCreate(num); // // for(int32_t i=0; i